为优化渗氮工艺,提高渗氮层的厚度与硬度,提出用超声波冷锻技术(Ultrasonic cold forging technology,UCFT)对Cr12MoV模具钢进行表面纳米化预处理,并在450℃和520℃两个温度条件下离子渗氮.采用扫描电镜、金相显微镜、白光形貌仪、X射线衍射仪和维氏显微硬度计对样品的微观组织结构和性能进行表征.结果表明:UCFT是一种能与离子渗氮有效复合的预处理工艺,经UCFT表面纳米化预处理后,Cr12MoV模具钢表面形成表面硬度约520 HV,厚度为350 μm的塑性变形影响层;经UCFT表面纳米化预处理后和离子渗氮复合处理后,渗氮层厚度与硬度与原始样品直接渗氮相比有显著提高;UCFT预处理后在520℃离子渗氮4h,材料表面硬度可高达1350 HV,复合改性层厚度也可增至约400 μm.
参考文献
| [1] | 唐殿福;卯石刚.钢的化学热处理[M].沈阳:辽宁科学技术出版社,2009 |
| [2] | 王成彪;刘家浚;韦淡平;陈华辉.摩擦学材料及表面工程[M].北京:国防工业出版社,2012 |
| [3] | Tong WP;Han Z;Wang LM;Lu J;Lu K .Low-temperature nitriding of 38CrMoAl steel with a nanostructured surface layer induced by surface mechanical attrition treatment[J].Surface & Coatings Technology,2008(20):4957-4963. |
| [4] | 巴德玛,马世宁,李长青,李新,胡春华.Cr-Si合金钢表面纳米层对低温离子渗硫的影响[J].材料热处理学报,2008(05):160-164. |
| [5] | 李杨,徐久军,王亮.42CrMo钢表面纳米化对离子渗氮的影响[J].中国表面工程,2010(03):60-63. |
| [6] | 卑多慧,吕坚,顾剑锋,卢柯,潘健生.表面纳米化预处理对低碳钢气体渗氮行为的影响[J].材料热处理学报,2002(01):19-24. |
| [7] | W.P.Tong,H.W.Zhang,N.R.Tao,Z.B.Wang,J.Lu,K.Lu.Low-Temperature Nitriding by Means of SMAT[J].材料热处理学报,2004(05):301-306. |
| [8] | Li Y;Wang L;Zhang D D et al.The effect of surface nanocrystallization on plasma nitriding behaviours of AISI 4140 steel[J].Applied Surface Science,2010,257(03):979-984. |
| [9] | 刘刚,莫成刚,武保林,左良.钢铁材料的表面纳米化[J].钢铁研究学报,2011(08):1-10,30. |
| [10] | 梁永立,张俊宝,宋洪伟.表面自纳米化钢铁材料的研究进展[J].世界钢铁,2011(02):36-44. |
| [11] | 白涛,李东,关凯书.机械滚压对304L不锈钢组织和性能的影响[J].金属学报,2011(11):1459-1463. |
| [12] | АлexинBП;АлexинOB .НанoTeхнолоr ии пoвeрхнoсrнoй упрочняющeй и Финишной oбрабoтки дeTалeй иэ констrрукционных и инсrрумeнталъныx сrалeй[J].Mащинoстрoeниe и инжeнeрнoe oбраэoванииe,2007,4(C):2-13. |
| [13] | Suh CM;Song GH;Suh MS;Pyoun YS .Fatigue and mechanical characteristics of nano-structured tool steel by ultrasonic cold forging technology[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2007(1/2):101-106. |
| [14] | A. Amanov;I. S. Cho;Y. S. Pyoun;C. S. Lee;I. G. Park.Micro-dimpled surface by ultrasonic nanocrystal surface modification and its tribological effects[J].Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear,2012:136-144. |
| [15] | Cao X J;Pyoun Y S;Murakami R .Fatigue properties of a S45C steel by subjected to ultrasonic nano-crystal surface modification[J].Applied Surface Science,2010,256(21):6297-6303. |
| [16] | Ida T.;Shimazaki S.;Hibino H.;Toraya H. .Diffraction peak profiles from spherical crystallites with lognormal size distribution[J].Journal of Applied Crystallography,2003(5):1107-1115. |
| [17] | Scardi P;Leoni M;Delhez R .Line broadening analysis using integral breadth methods: a critical review[J].Journal of Applied Crystallography,2004(3):381-390. |
| [18] | Rad H F;Amadeh A;Moradi H .Wear assessment of plasma nitrided AISI H11 steel[J].Materials & Design,2011,32(05):2635-2643. |
| [19] | W. P. Tong;N. R. Tao;Z. B. Wang;H. W. Zhang;J. Lu;K. Lu .The formation of ε-Fe_(3-2)N phase in a nanocrystalline Fe[J].Scripta materialia,2004(5):647-650. |
| [20] | Sirin S Y;Kaluc E .Structural surface characterization of ion nitrided AISI 4340 steel[J].Materials & Design,2012,36:741-748. |
| [21] | 赵良峰,王小祥.00Cr12Ni9Mo4Cu2Ti马氏体时效不锈钢离子渗氮组织和性能[J].材料热处理学报,2009(02):172-177. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%